KR102582178B1 - Cooling ink composition, method of manufacturing cooling transfer paper using the same, and cooling transfer paper - Google Patents

Abstract

A cooling ink composition, a method of manufacturing a cooling transfer paper using the same, and a cooling transfer paper are disclosed. The cooling transfer paper manufacturing method includes a first step of forming a functional layer by performing a silk screen printing process on one side of the printing paper using a cooling ink composition; and a second process of forming an adhesive layer by printing an adhesive on the functional layer.

Description

Cooling ink composition, method of manufacturing cooling transfer paper using the same, and cooling transfer paper {Cooling ink composition, method of manufacturing cooling transfer paper using the same, and cooling transfer paper}

The present invention relates to a cooling ink composition, a method of manufacturing cooling transfer paper using the same, and cooling transfer paper.

In general, images can be created on textile fabrics such as cotton, rayon, and silk using a printing method that involves dyeing with reactive ink. Examples of these printing methods include the hand screen method, auto screen method, rotary screen method, and gravure method. The hand screen method is a method of creating monochromatic and multicolor images by screen printing textile fabric on an inclined plate. The auto screen method is a printing method that automates the manual work of a hand screen.

The rotary screen method is a printing method using one or a large number of cylindrical metal screens and is also called a roll screen. The product is processed into a roll and printed to be wound into a roll, so the work speed is fast and productivity is high. The gravure method is a printing method that transfers an image engraved on a metal copper plate to fabric.

The general printing process largely consists of design, drafting, engraving, color manufacturing, printing, drying, steaming, washing, and drying processes. The ink is fixed to the fiber by utilizing the dyeing properties of the printing ink on the fiber fabric. I order it. Specifically, printing is the process of partially dyeing a textile fabric to create a pattern. Dyeing is done by using a paste as a medium and printing paste mixed with colorants such as dyes and pigments and additives and solvents such as discharge agents and flame retardants. The general printing method has problems in the process of separating, mixing, and color matching according to color frequency, and the problem of generating wastewater to dispose of the printing material during the washing process has been treated as a cause of serious environmental pollution.

The present invention is to provide a cooling ink composition, a method of manufacturing cooling transfer paper using the same, and cooling transfer paper.

In addition, the present invention is to provide a cooling ink composition that can provide a cool feeling when attached to the inside of clothing, gloves, socks, etc., and also has a design effect, a method of manufacturing cooling transfer paper using the same, and a cooling transfer paper. .

According to one aspect of the present invention, a cooling ink composition, a method of manufacturing cooling transfer paper using the same, and cooling transfer paper are provided.

According to one embodiment of the present invention, a first process of forming a functional layer by performing a silk screen printing process on one side of a printing paper using a cooling ink composition; and a second process of forming an adhesive layer by printing an adhesive on the functional layer.

The cooling ink composition may be mixed with cyclohexanone in a ratio of 100 parts by weight when 100 parts by weight of peppermint brain is used.

The cooling ink composition may be composed of 20% by weight of peppermint, 25% by weight of ethyl alcohol, 35% by weight of oil-based resin ink, and 20% by weight of cyclohexanone.

According to another embodiment of the present invention, a functional layer formed on one side of the printing paper; And an adhesive layer formed on one side of the functional layer, wherein the functional layer is formed using a cooling ink composition, wherein the cooling ink composition is a mixture of cyclohexanone in a ratio of 100 parts by weight when 100 parts by weight of peppermint brain. A cooling transfer sheet may be provided.

According to another embodiment of the present invention, a cooling ink composition for cooling transfer in which 100 parts by weight of peppermint brain is mixed with cyclohexanone at a ratio of 100 parts by weight can be provided.

By providing a cooling ink composition according to an embodiment of the present invention, a method of manufacturing a cooling transfer paper using the same, and a cooling transfer paper, a cool feeling can be provided when the cooling transfer product is attached to the inside of clothes, gloves, socks, etc., and a design effect can also be seen. You can.

Figure 1 is a diagram showing the structure of a cooling transfer paper according to an embodiment of the present invention.
Figure 2 is a flow chart showing the manufacturing process of a cooling ink composition according to an embodiment of the present invention.
Figure 3 is a flowchart showing a method of manufacturing cooling transfer paper according to an embodiment of the present invention.

As used herein, singular expressions include plural expressions unless the context clearly dictates otherwise. In this specification, terms such as “consists of” or “comprises” should not be construed as necessarily including all of the various components or steps described in the specification, and some of the components or steps may be included in the specification. It may not be included, or it should be interpreted as including additional components or steps. In addition, terms such as "... unit" and "module" used in the specification refer to a unit that processes at least one function or operation, which may be implemented as hardware or software, or as a combination of hardware and software. .

Hereinafter, embodiments of the present invention will be described in detail with reference to the attached drawings.

Figure 1 is a diagram showing the structure of a cooling transfer paper according to an embodiment of the present invention.

Referring to FIG. 1, the cooling transfer paper 100 according to an embodiment of the present invention includes a printed paper 110, a functional layer 120, and an adhesive layer 130.

The printing paper 110 is an object on which the cooling ink composition is printed using a silk screen method. Here, the printing paper may be a release-coated polyester film, a retroreflective film, or a release-coated paper.

Functional layer The functional layer 120 is formed by printing a cooling ink composition using a silk screen method. Here, the cooling ink composition may be mixed with cyclohexanone in a ratio of 100 parts by weight when 100 parts by weight of peppermint brain is used.

More specifically, the cooling ink composition may be mixed with 20% by weight of peppermint, 25% by weight of ethyl alcohol, 35% by weight of oil-based resin ink, and 20% by weight of cyclohexanone. The mixing ratio of cyclohexanone is important in the mixing ratio of the cooling ink composition. Cyclohexanone is very important for diluting ethyl alcohol, which dissolves peppermint brain, when mixing it with oil-based resin ink. The mixing ratio is the same as above, but if the mixing ratio of cyclohexanone is different, there is a problem in that ethyl alcohol is not diluted when stirred with oil-based resin ink.

It is important that cyclohexanone must be mixed with peppermint in the same proportion.

A method of manufacturing a cooling ink composition will be briefly described.

Dissolve peppermint brain in ethyl alcohol. Peppermint brain is most easily dissolved in ethyl alcohol. After dissolution is complete, the dissolved material (i.e., peppermint brain dissolved in ethyl alcohol) is added to the oil-based resin ink and stirred. When adding dissolved material to oil-based resin ink and stirring it, there is a problem in that dilution is not possible. Therefore, cyclohexanone can be diluted by mixing it at a ratio of 100 parts by weight when 100 parts by weight of peppermint brain is 100 parts by weight.

If the proportion of peppermint brain is less than 20% by weight, there is a problem that the cooling transfer effect is insufficient, and if the ratio of peppermint brain is more than 20% by weight, there is a problem that post-processing is difficult due to slipperiness during printing.

Therefore, in the cooling ink composition, peppermint brain must be mixed at 20% by weight, and cyclohexanone must be mixed at 20% by weight, which is the same ratio of peppermint brain, in order to dissolve the peppermint brain in ethyl alcohol and then dilute it by stirring in oil-based resin ink.

If cyclohexanone is not mixed with the peppermint brain at the same ratio of 20% by weight, the material mixed with the oil-based resin ink after dissolving the peppermint brain in ethyl alcohol may not be diluted properly.

Oil-based resin ink can express colors or be transparent, and various design effects can be achieved when colors are expressed by adding pigments.

Functional layer The functional layer 120 is formed through silk screen printing on the printing paper 110 using a cooling ink composition, and the cooling transfer paper is attached to the inside of clothing, gloves, socks, etc. in contact with the skin using a thermal transfer technique. It can give a cool feeling.

The adhesive layer 130 is formed by printing an adhesive on the functional layer 120. The adhesive layer 130 may be formed by silk-screen printing an adhesive on the functional layer 120.

The adhesive layer 130 is a means for attaching the cooling transfer paper to the inside of clothes, gloves, socks, etc. Cooling transfer paper is a means of attaching the cooling transfer paper to the adherend through thermal transfer technique.

Adhesives may include urethane hot melt, polyester hot melt, and polyamide hot melt. In addition, hot melt, which has excellent fastness of transfer, may be used as the adhesive depending on the type of adherend.

Figure 2 is a flowchart showing the manufacturing process of a cooling ink composition according to an embodiment of the present invention.

In step 210, 20% by weight of peppermint brain is mixed with 25% by weight of ethyl alcohol and dissolved.

After dissolution is completed in step 215, 35% by weight of oil-based resin ink is added and stirred. In one embodiment of the present invention, it is assumed that 35% by weight of oil-based resin ink is added, but in addition to the oil-based resin ink, urethane or polyester resin may be added at 35% by weight.

In step 220, 20% by weight of cyclohexanone is added and stirred.

If cyclohexanone is not added, the oil-based resin ink and the dissolved material are not diluted, but as cyclohexanone is added, the oil-based resin ink and the dissolved material may be diluted.

Figure 3 is a flowchart showing a method of manufacturing cooling transfer paper according to an embodiment of the present invention.

At 310, a functional layer is formed by printing using a cooling ink composition on the printing paper using a silk screen method. Here, the printing paper may be a release-coated polyester film, a retroreflective film, or a release-coated paper.

As described above in FIGS. 1 and 2, the cooling ink composition may be mixed with 100 parts by weight of cyclohexanone per 100 parts by weight of peppermint brain, and the mixing ratio of each material is the same as described above, so redundant description is omitted. I decided to do it.

Since the silkscreen printing method is self-evident to those skilled in the art, a separate explanation thereof will be omitted.

In step 315, adhesive is printed to form an adhesive layer on the functional layer. As already mentioned above, an adhesive can be printed to form an adhesive layer on the functional layer.

An adhesive layer can be formed on the functional layer by printing the adhesive using a silkscreen method.

So far, the present invention has been examined focusing on its embodiments. A person skilled in the art to which the present invention pertains will understand that the present invention may be implemented in a modified form without departing from the essential characteristics of the present invention. Therefore, the disclosed embodiments should be considered from an illustrative rather than a restrictive perspective. The scope of the present invention is indicated in the claims rather than the foregoing description, and all differences within the equivalent scope should be construed as being included in the present invention.

100: Cooling transfer paper
110: Printed paper
120: functional layer
130: Adhesive layer

Claims (7)

A first process of forming a functional layer by performing a silk screen printing process based on a cooling ink composition on one side of the printing paper; and
A second process of forming an adhesive layer by printing an adhesive on the functional layer,
The cooling ink composition is a mixture of peppermint brain and cyclohexanone in equal proportions,
The cooling ink composition is a method of manufacturing a cooling transfer paper, characterized in that 20% by weight of peppermint brain, 25% by weight of ethyl alcohol, 35% by weight of oil-based resin ink, and 20% by weight of cyclohexanone.
According to claim 1,
The cooling ink composition is a cooling transfer paper manufacturing method, characterized in that cyclohexanone is mixed in a ratio of 100 parts by weight when 100 parts by weight of peppermint brain.
delete A functional layer formed on one side of the printing paper; and
Including an adhesive layer formed on one side of the functional layer,
The functional layer is formed using a cooling ink composition, wherein the cooling ink composition is a mixture of peppermint brain and cyclohexanone in the same ratio. When the peppermint brain is 100 parts by weight, cyclohexanone is mixed in a ratio of 100 parts by weight,
The cooling ink composition is a cooling transfer paper, characterized in that 20% by weight of peppermint, 25% by weight of ethyl alcohol, 35% by weight of oil-based resin ink, and 20% by weight of cyclohexanone.
According to clause 4,
Cooling transfer paper, wherein the functional layer is formed by silk-screen printing the cooling ink composition on one side of the printing paper.
Peppermint brain and cyclohexanone are mixed in equal proportions,
A cooling ink composition for cooling transfer mixed with 20% by weight of peppermint brain, 25% by weight of ethyl alcohol, 35% by weight of oil-based resin ink, and 20% by weight of cyclohexanone.
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